2. Sexual selection can drive speciation

3. …and extinction

4. Major questions: Why do males* compete for access to females? Why are females* so choosy? – –direct & indirect benefits – –sexy sons, good genes *Except for sex-role reversed species

5. Eager males, coy females “That males … eagerly pursue the females, is notorious to everyone… The female, on the other hand, with the rarest exceptions, is coy and may often be seen endeavouring for a long time to escape the male.” (Darwin 1871)

6. Why the sex difference in behaviour? Bateman’s fly experiments – –stocked breeding vials with equal numbers females & males – –for each individual, determined # of offspring (reproductive success) [how?] # of mates (mating success)

7. 1. Male vs female reproductive success average reproductive successaverage reproductive success variance around this averagevariance around this average maximum reproductive successmaximum reproductive success frequency number of offspring (repro success)

8. 2. Male vs female mating success higher variance in males… some get no mates, some have manyhigher variance in males… some get no mates, some have many frequency number of mates (mating success)

9. 3. Mating success vs reproductive success offspring mates Bateman gradients What about sex role reversal? Could Bateman gradients ever be positive for BOTH sexes? Are Bateman gradients ever negative?

10. Bateman’s principles and sexual selection males and females have equal average fitness, but different potential fitness and variance in fitness (Bateman 1948) fitness of males, but not of females, increases with number of mates (Bateman 1948) sex with the steeper Bateman gradient experiences sexual selection, and competes for access to the opposite sex

11. Major questions: Why do males compete for access to females? Why are females so choosy? – –direct & indirect benefits – –sexy sons, good genes and the lek paradox

12. Being a choosy female can be time- consuming and dangerous. Why not just mate with the first male you meet? How do females benefit from being choosy?

13. Direct benefits: resources or care But in many species, males don’t provide direct benefits, yet females are still choosy

14. Indirect (genetic) benefits: (1) Sexy sons Haploid, 2 locus model (T and C) Starting frequencies: – –50% males have the trait (T) – –50% males lack the trait (t) – –50% females are choosy (C)… only mate with T males – –50% females are not choosy (c) … mate with either T or t males

15. Sexy son = runaway = Fisherian selection starting haplotype frequencies: –0.25 TC –0.25 Tc –0.25 tC –0.25 tc next generation: –0.5 TC –0.25 Tc –0 tC –0.25 tc http://bio.research.ucsc.edu/~barrylab/classes/animal_behavior/BOX_3_1.HTM

16. Sexy son = runaway = Fisherian selection T males attract more mates f(C) increases as f(T) increases T males get even more mates… positive feedback Do loci T and C need to be on the same chromosome to become genetically correlated? Would this process be effective if we started with very low f(C)? How would this model work for diploid organisms-- does it require certain dominance relationships among alleles? What does this model assume about costs of alleles T & C?

17. Indirect (genetic) benefits: (2) Good genes Sexy sons: female preferences are arbitrary Good genes: female preferences are adaptive – –only high-quality males can produce attractive traits – – offspring of attractive dads inherit good genes, survive better

18. But if good genes are so important, why is there still variation in male attractiveness and quality? “Lek Paradox” male trait signals genetic quality what happens to genetic variation at a locus when it experiences sustained directional selection?

19. Genic capture models solve the paradox via selection/mutation balance trait itself may be polygenic: trait itself is a large mutational target (Pomiankowski & Møller 1990) trait expression may depend on condition, which is polygenic: condition is a large mutational target (Rowe & Houle 1996)

20. Summary: Sexual selection Bateman gradients predict which sex competes, which sex chooses, and the intensity of sexual selection Mate choice can be costly, but choosing the best mate confers material and/or genetic benefits